Artificial intelligence (AI) is a branch of computer-science that focuses on machines with human-like intelligence.[1] AI has a wide variety of applications across many fields. Some examples of these applications are fields of language translation, image recognition, credit scoring, e-commerce and other domains.
Government
editMilitary
editFurther information: Artificial intelligence arms race, Lethal autonomous weapon, and Unmanned combat aerial vehicle
Various countries are deploying AI military applications. The main applications enhance command and control, communications, sensors, integration and interoperability. Research is targeting intelligence collection and analysis, logistics, cyber operations, information operations, and semiautonomous and autonomous vehicles. AI technologies enable coordination of sensors and effectors, threat detection and identification, marking of enemy positions, target acquisition, coordination and deconfliction of distributed Joint Fires between networked combat vehicles involving manned and unmanned teams. AI was incorporated into military operations in Iraq and Syria.
The Royal Australian Air Force (RAAF) Air Operations Division (AOD) uses AI for expert systems. AIs operate as surrogate operators for combat and training simulators, mission management aids, support systems for tactical decision making, and post processing of the simulator data into symbolic summaries.
Aircraft simulators use AI for training aviators. Flight conditions can be simulated that allow pilots to make mistakes without risking themselves or expensive aircraft. Air combat can also be simulated.
AI can also be used to operate planes analogously to their control of ground vehicles. Autonomous drones can fly independently or in swarms.
AOD uses the Interactive Fault Diagnosis and Isolation System, or IFDIS, which is a rule-based expert system using information from TF-30 documents and expert advice from mechanics that work on the TF-30. This system was designed to be used for the development of the TF-30 for the F-111C. The system replaced specialized workers. The system allowed regular workers to communicate with the system and avoid mistakes, miscalculations, or having to speak to one of the specialized workers.
Speech recognition allows traffic controllers to give verbal directions to drones.
Artificial intelligence supported design of aircraft, or AIDA, is used to help designers in the process of creating conceptual designs of aircraft. This program allows the designers to focus more on the design itself and less on the design process. The software also allows the user to focus less on the software tools. The AIDA uses rule based systems to compute its data. This is a diagram of the arrangement of the AIDA modules. Although simple, the program is proving effective.
Environmental monitoring
editSee also: Climate-smart agriculture
Autonomous ships that monitor the ocean, AI-driven satellite data analysis, passive acoustics or remote sensing and other applications of environmental monitoring make use of machine learning.
For example, "Global Plastic Watch" is an AI-based satellite monitoring-platform for analysis/tracking of plastic waste sites to help prevention of plastic pollution – primarily ocean pollution – by helping identify who and where mismanages plastic waste, dumping it into oceans.
Early-warning systems
editMachine learning can be used to spot early-warning signs of disasters and environmental issues, possibly including natural pandemics, earthquakes, landslides, heavy rainfall, long-term water supply vulnerability, tipping-points of ecosystem collapse, cyanobacterial bloom outbreaks, and droughts.
Research
editBiochemistry
editArtificial intelligence has been used to predict the three-dimensional native structure of proteins. The most successful of these programs is AlphaFold 2. Developed by DeepMind, AlphaFold 2 is an AI program that can predict the 3D structure of protein in hours rather than the months required by earlier automated approaches. It has been used to provide the likely structures of all proteins in the human body and almost all proteins known to science - around 300 million proteins. In July of 2021, DeepMind announced that it had used AlphaFold to predict the structure of nearly every protein in the human body, as well as the entire proteomes of 20 other widely studied organisms, such as mice and the bacterium Escherichia coli. [2]
Artificial intelligence is used in astronomy to analyze increasing amounts of available data and applications, mainly for "classification, regression, clustering, forecasting, generation, discovery, and the development of new scientific insights" for example for discovering exoplanets, forecasting solar activity, and distinguishing between signals and instrumental effects in gravitational wave astronomy. It could also be used for activities in space such as space exploration, including analysis of data from space missions, real-time science decisions of spacecraft, space debris avoidance, and more autonomous operation.
In the search for extraterrestrial intelligence (SETI), machine learning has been used in attempts to identify artificially generated electromagnetic waves in available data – such as real-time observations – and other technosignatures, e.g. via anomaly detection. In ufology, the SkyCAM-5 project headed by Prof. Hakan Kayal and the Galileo Project headed by Prof. Avi Loeb use machine learning to detect and classify peculiar types of UFOs. The Galileo Project also seeks to detect two further types of potential extraterrestrial technological signatures with the use of AI: 'Oumuamua-like interstellar objects, and non-manmade artificial satellites.
Space Flight
editIn 2003 a Dryden Flight Research Center project created software that could enable a damaged aircraft to continue flight until a safe landing can be achieved. The software compensated for damaged components by relying on the remaining undamaged components.
The 2016 Intelligent Autopilot System combined apprenticeship learning and behavioral cloning whereby the autopilot observed low-level actions required to maneuver the airplane and high-level strategy used to apply those actions.
See also: § Novel types of machine learning
Astrochemistry
editAI can be used to produce datasets of spectral signatures of molecules that may be involved in the atmospheric production or consumption of particular chemicals – such as phosphine possibly detected on Venus – which could prevent miss assignments and, if accuracy is improved, be used in future detections and identifications of molecules on other planets.
References
edit- ^ Salehi, Hadi; Burgueño, Rigoberto (2018-09-15). "Emerging artificial intelligence methods in structural engineering". Engineering Structures. 171: 170–189. doi:10.1016/j.engstruct.2018.05.084. ISSN 0141-0296.
- ^ Callaway, Ewen (2021-07-22). "DeepMind's AI predicts structures for a vast trove of proteins". Nature. 595 (7869): 635–635. doi:10.1038/d41586-021-02025-4.